Hydraulic tube expander and method of use

ABSTRACT

A hydraulic tube expander includes expanding jaws engageable with an interior surface of a tube to expand the tube; a source of hydraulic fluid, a valve located between the source and the expanding jaws and a single-action release actuator operatively coupled to the valve. The valve is moveable between open and closed positions. In the closed position, hydraulic fluid can pass from the source to the expanding jaws and in the open position the hydraulic fluid can pass from the expanding jaws to the source. The actuator is movable between first and second positions. In the first position the valve is in the closed position. Movement of the actuator in a direction from the first position toward the second position moves the valve into the open position.

CROSS-REFERENCE TO RELATED PATENT APPLICATIONS

This patent application is a Continuation of U.S. Utility patentapplication Ser. No. 15/997,376 filed 4 Jun. 2018; which is a Divisionalof U.S. Utility patent application Ser. No. 14/440,176 filed 25 Jan.2013, now U.S. Pat. No. 9,987,672 issued 5 Jun. 2018; which is anational stage filing of International Patent ApplicationPCT/US2013/023152 25 Jan. 2013; which claims a benefit of U.S.Provisional Patent Application 61/598,669 filed 14 Feb. 2012; each ofwhich is herein incorporated by reference for all purposes.

FIELD OF THE INVENTION

The present invention relates to hydraulic tube expanders, and moreparticularly, relates to hydraulic tube expanders having single-actionrelease actuators and/or a compact configuration.

BACKGROUND

Hydraulic tube expanders are used by plumbers, HVAC technicians, andothers to expand a section of tube or pipe, such as an end of the tubeor pipe. Traditional tube expanders are difficult to operate withintight spaces. When expanding an end of a copper tube, for example,end-users may use multiple styles of tools to expand the end of thetube. As such, a compact and simple to use hydraulic tube expander wouldbe advantageous.

Some hydraulic expanders are linear shaped but do not provide sufficientcompactness to allow for use within tight spaces. An example of a lineartool is shown in U.S. Pat. No. 6,619,099, entitled “Hydraulicallypowered flaring hand tool,” issued on Sep. 16, 2003. One disadvantage ofthis configuration is that it requires use of two hands to fully operatethe tube expander. In the case of engaging the expander with a tube orpipe, a nob must be turned to operate the expansion element of theexpander. In addition, in the case of release and/or disengagement afterexpansion, the nob must be turned in a counter direction to release thepressure and retract/disengage the expansion elements. As such, the nobis operating in both directions, and requires two hands to operate.

SUMMARY OF INVENTION

It is an object of the present invention to overcome one or more of theabove-described drawbacks and/or disadvantages of the prior art. Inaccordance with a first aspect, a hydraulic tube expander comprisesexpanding jaws engageable with an interior surface of a tube to expandthe tube, a source of hydraulic fluid, a valve located between thesource and the expanding jaws, and a single-action release actuatoroperatively coupled to the valve. The valve is moveable between open andclosed positions, wherein in the closed position the hydraulic fluid canflow from the source to the expanding jaws and in the open position thehydraulic fluid can flow from the expanding jaws to the source. Theactuator is movable between first and second positions, wherein in thefirst position the valve is in the closed position, and movement of theactuator in a direction from the first position toward the secondposition moves the valve into the open position.

In some embodiments, the single-action release actuator is biased fromthe second position toward the first position. In some embodiments, thevalve is biased toward the closed position. In some embodiments, thehydraulic tube expander further comprises a spring biasing the valve.

In some embodiments, the hydraulic tube expander further comprises atool body, wherein the single-action release actuator is pivotallymounted on the tool body. In some embodiments, the hydraulic tubeexpander is configured to be operated by a single hand of a user. Insome embodiments, the hydraulic tube expander further comprises a headand a handle. The expanding jaws are disposed on the head, and thesource of hydraulic fluid is disposed in the handle. In someembodiments, the hydraulic tube expander further comprises a triggerconfigured to pump the hydraulic fluid toward the expanding jaws. Insome such embodiments, the hydraulic tube expander further comprises anormally-closed second valve located between the source and theexpanding jaws. Operation of the trigger generates pressure in thehydraulic fluid to move the second valve from the normally-closedposition to an open position thereof and pump the hydraulic fluidthrough the second valve toward the expanding jaws. In some suchembodiments, the trigger is moveable between a first position and asecond position and is normally biased toward the first position.Movement of the trigger in a direction from the first position towardthe second position pumps the hydraulic fluid toward the expanding jaws.

In accordance with another aspect, a hydraulic tube expander comprises atool body, a head connected to the tool body and comprising expandingjaws engageable with an interior surface of a tube to expand the tube; ahandle connected to the tool body at a substantially 90.degree. anglerelative to the head; and a trigger mounted approximately at a junctionof the head and the tool body.

In some embodiments, the trigger is pivotally mounted. In someembodiments, the hydraulic tube expander further comprises asingle-action release actuator disposed on the tool body and locatedsubstantially opposite the trigger. In some such embodiments, thesingle-action release actuator is pivotally mounted on the tool body. Insome embodiments, the trigger is movable between a first position and asecond position, wherein the trigger is normally biased toward the firstposition. Movement of the trigger in a direction from the first positiontoward the second position pumps the hydraulic fluid toward theexpanding jaws. In some embodiments, the hydraulic tube expander isconfigured to be operated by a single hand of a user. In some suchembodiments the trigger and single-action release actuator areconfigured to be operated by a single hand of a user.

In accordance with another aspect, a hydraulic tube expander comprises atool body having a head and a handle attached thereto and forming asubstantially 90.degree. angle. The head comprises expanding jawsengageable with an interior surface of a tube to expand the tube; atrigger disposed on the tool body and configured to pump hydraulic fluidfrom a source of hydraulic fluid toward the expanding jaws, and, inturn, expand the expanding jaws, and a single-action release actuatordisposed on the tool body and operatively connected to a normally-closedrelease valve in fluid communication with the expanding jaws. Therelease actuator is configured to open the release valve, and, in turn,allow the hydraulic fluid to flow away from the expanding jaws. One ofthe release actuator and the trigger is disposed at the junction of thehead and the tool body, and the other of the release actuator and thetrigger is disposed on the substantially opposite side of the tool bodyfrom the one of the release actuator or the trigger.

In some embodiments, the single-action release actuator is pivotallymounted on the tool body. In some embodiments, the single-action releaseactuator defines a first position corresponding to the closed positionof the release valve and a second position corresponding to an openposition of the release valve. In some embodiments, the trigger ismovable between a first position and a second position, wherein thetrigger is normally biased toward the first position. Movement of thetrigger in a direction from the first position toward the secondposition pumps the hydraulic fluid toward the expanding jaws. In someembodiments, the hydraulic tube expander is configured to be operated bya single hand of a user.

In accordance with another aspect, a hydraulic tube expander comprises atool body having a head and a handle attached thereto and forming asubstantially 90.degree. angle, the head comprising expanding jawsengageable with an interior surface of a tube to expand the tube, firstmeans for pumping hydraulic fluid from a source of hydraulic fluidtoward the expanding jaws, and, in turn, expanding the expanding jaws,and second means for opening a normally-closed release valve in fluidcommunication with the expanding jaws and allowing hydraulic fluid toflow away from the expanding jaws. The first and second means areconfigured to be operated by a single hand of a user.

In some embodiments, the first means is a trigger disposed on the toolbody and the second means is a single-action release actuator disposedon the tool body. One of the release actuator and the trigger isdisposed at the junction of the head and the tool body, and the other ofthe release actuator and the trigger is disposed on the substantiallyopposite side of the tool body from the one of the release actuator orthe trigger.

In accordance with another aspect, a method comprises engaging a tubeexpander with a tube, engaging the expandable jaws with an interiorsurface of the tube, and expanding the jaws, to, in turn, expand the endof the tube. The tube expander includes a tool body having a head and ahandle attached thereto and forming a substantially 90.degree. angle.The head comprises expanding jaws engageable with an interior surface ofa tube to expand the tube, a trigger disposed on the tool body andconfigured to pump hydraulic fluid from a source of hydraulic fluidtoward the expanding jaws, and, in turn, expand the expanding jaws, anda single-action release actuator disposed on the tool body andoperatively connected to a normally-closed release valve in fluidcommunication with the expanding jaws. The release actuator isconfigured to open the release valve, and, in turn, allow the hydraulicfluid to flow away from the expanding jaws. One of the release actuatorand the trigger is disposed at the junction of the head and the toolbody, and the other of the release actuator and the trigger is disposedon the substantially opposite side of the tool body from the one of therelease actuator or the trigger.

In some embodiments, the method further comprises the step of holdingthe tube expander with one hand of a user, and wherein the expandingstep comprises actuating the trigger with the one hand at least oncebetween a first position and a second position thereof, and pumpinghydraulic fluid from the source of hydraulic fluid to the expandingjaws, and, in turn, expanding the jaws. In some such embodiments, methodfurther comprises the step of actuating the release actuator between anunactuated position and an actuated position thereof, with the same onehand of the user holding the tube expander, and flowing the hydraulicfluid away from the expanding jaws, and, in turn, disengage the jawsfrom the end of the tube.

One advantage of the present invention is that a hydraulic tube expanderis provided with a compact configuration to allow for single-handed usewithin tight spaces. Accordingly, end-users may need only a single tubeexpander to expand tube ends. Yet another advantage of the currentlypreferred embodiments of the present invention is that a tube expanderis provided with a quick single-action release actuator to allow forsimple retraction of expanding jaws, thereby disengaging with a tubethat has been expanded. Further, advantageously, the configuration ofthe single-action release actuator allows for single-handed use of thetool within tight spaces.

These and other objects and advantages of the present invention, and/orof the currently preferred embodiments thereof, will become more readilyapparent in view of the following detailed description and accompanyingdrawings.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a side view of a preferred embodiment of a hydraulic tubeexpander of the present invention;

FIG. 2 is a front view of the hydraulic tube expander of FIG. 1;

FIG. 3 is a cross-sectional view of the hydraulic tube expander of FIG.1, along the sectional line A-A; and

FIG. 4 is cross-sectional view of the hydraulic tube expander of FIG. 1,along the sectional line B-B.

DETAILED DESCRIPTION

It is to be understood that the following disclosure provides manydifferent embodiments, or examples, for implementing different featuresof various embodiments. Specific examples of components and arrangementsare described below to simplify the present disclosure. These are, ofcourse, merely examples and are not intended to be limiting. Inaddition, the present disclosure may repeat reference numerals and/orletters in the various examples. This repetition is for the purpose ofsimplicity and clarity and does not in itself dictate a relationshipbetween the various embodiments and/or configurations discussed.Moreover, the formation of a first feature over or on a second featurein the description that follows may include embodiments in which thefirst and second features are formed in direct contact, and may alsoinclude embodiments in which additional features may be formedinterposing the first and second features, such that the first andsecond features may not be in direct contact.

Referring initially to FIG. 1, a hydraulic tube expander is indicatedgenerally by the reference number 100. The hydraulic tube expander 100includes a body 103, a handle 102 and a head 104. The head 104 includesexpanding jaws 106, which are configured to engage with the interiorsurface of a tube or pipe (not shown) to expand a section or end of thepipe or tube. The hydraulic tube expander 100 also includes a trigger108 which is configured to pump hydraulic fluid within the hydraulictube expander 100 to operate the expanding jaws 106. Although describedand shown herein as three separate elements, the hydraulic tube expander100 may be formed from a single uniform body or in two or more joinedelements, without departing from the scope of the present invention.

As shown in FIG. 1, the trigger 108 is biased into a first position, theposition shown, with a biasing mechanism 109. During operation, thetrigger 108 is pulled, actuated, or compressed toward the handle 102, toa second position, to, in turn, pump hydraulic fluid through thehydraulic tube expander 100. After compression of the trigger 108, thetrigger is biased back from the second position toward the firstposition by the biasing mechanism 109. This allows repeated compressionor action of the trigger 108 to pump hydraulic fluid that operates theexpanding jaws 106 engaged with a pipe or tube to expand a section orend of the pipe or tube. In the illustrated embodiment, the biasingmechanism 109 is a spring biased rod or piston 140, where the spring isconfigured to bias the trigger 108 toward the first position. However,although described herein as a spring biased piston or rod, those ofordinary skill in the art will appreciate that the biasing mechanism 109may be other spring biased mechanisms or other biasing mechanisms knownin the art or will become known, without departing from the scope of thepresent invention.

Once the expanding jaws 106 are expanded to a desired expansion, a usermust disengage the hydraulic tube expander 100 from the pipe or tube. Toassist in quick action disengagement, the hydraulic tube expander 100 isconfigured with a single-action release actuator 110. The single-actionrelease actuator 110 is configured to allow for a simple release of thehydraulic pressure that is applied to the expanding jaws 106, therebyallowing retraction of the expanding jaws 106 and disengagement from apipe or tube that has been expanded.

As shown in FIG. 1, the hydraulic tube expander 100 is configured in anapproximately 90.degree. orientation. The head 104 and the handle 102are formed at an angle relative to each other about the tool body 103 byapproximately 90.degree., which allows for a compact design andconfiguration. The trigger 108 is located at the junction of the head104 and the tool body 103, with the single-action release actuator 110disposed on substantially the opposite side of the tool body 103 fromthe trigger 108. This configuration aides in the compact design andsimplicity of use, by allowing a user to use a single hand to operatethe tool during both expansion and disengagement of the tool from a tubeor pipe.

As shown in FIG. 3, the head 104 is threadedly connected with the toolbody 103 and defines a cavity 126 with the tool body 103. However, asshould be understood by those ordinary skill in the pertinent art, thehead 104 can be attached directly or indirectly to the tool body 103 viaother methods or means. The cavity 126 is configured to house a cone 118adjacently secured to piston 130 having a biasing mechanism 132. Thehead 104 includes the expanding jaws 106, as described above. Theexpanding jaws 106 are configured to expand or retract based on pressureor force applied by the cone 118 thereto. As shown, the expanding jaws106 are normally biased into a retracted closed position by one or morebiasing mechanisms 107. In the illustrated embodiment, the biasingmechanisms 107 are springs that provide a biasing force to nominallymaintain the expanding jaws 106 in, and to return the jaws 106 to, theclosed position. However, as should be appreciated by one of ordinaryskill in the pertinent art, other biasing mechanisms known or that laterbecome known may be used to bias the expanding jaws toward the closedposition as described herein.

The expanding jaws 106 can pivot about an end 135 of the head 104 to, inturn, expand and open. In the illustrated embodiment, the cone 118 isconfigured to move axially within the head 104 and apply a force ontothe expanding jaws 106. The force applied by the cone 118 is sufficientto induce pivoting of the expanding jaws 106 about the end 135 of thehead 104, which, in turn, deforms, i.e., expands, the tube as the jaws106 expand outward and open. To apply the force from the cone 118 to theexpanding jaws 106, hydraulic fluid is used to move the cone 118 axiallywithin the head 104 of the hydraulic tube expander 100, as describedherein.

The hydraulic fluid used to operate the expanding jaws 106 is stored ina hydraulic fluid source 112 within the tool body 103 of the hydraulictube expander 100. Alternatively, the hydraulic fluid source may beconfigured as part of the handle 102. As shown, the hydraulic fluidsource 112 is located within the handle 102, but is part of the toolbody 103.

The tool body 103 includes an inlet fluid path 134 (FIG. 3), fluidlyconnectible with the hydraulic fluid source 112 and the cavity 126 todeliver hydraulic fluid from the fluid source 112 to the cavity 126. Aone-way inlet valve 136 is located between the fluid source 112 and thefluid path 134. The valve 136 is biased in a normally closed position,and defines a valve opening pressure. When a pressure differentialacross the valve 136 exceeds the valve opening pressure, the valve opensand allows hydraulic fluid to flow therethrough, from the fluid source112 and into the fluid path 134. Hydraulic fluid that flows from thefluid source 112 into the fluid path 134 is prevented from flowing backthrough the valve 136 and into the fluid source 112 because of the biasof the valve 136 into the closed position. Another one-way valve 138,located downstream from the one-way valve 136, is located between thefluid path 134 and the cavity 126. The one-way valve 137 defines theoutlet to the fluid path 134 and the inlet to the cavity 126. Similarlyto the valve 136, the valve 138 is also normally biased in a closedposition, and also defines a valve opening pressure to allow thehydraulic fluid to flow from the fluid path 134 and into the cavity 126.As should be understood by one of ordinary skill in the pertinent art,as the fluid pressure within the cavity 126 increases, so does the valveopening pressure of the valve 138. When hydraulic fluid in the fluidpath 134 applies pressure to the valve 138 exceeding the valve openingpressure, i.e., by actuation of the trigger 108, which exceeds thehydraulic pressure within cavity 126, the valve 138 opens and thehydraulic fluid passes therethrough. Hydraulic fluid that flows from thefluid path 134 into the cavity 126 is prevented from flowing backthrough the valve 138 and into the path 134 because of the bias of thevalve 136 into the closed position. Accordingly, hydraulic pressure inthe cavity 126 is maintained in order to move the cone 118 axially andoperate the expanding jaws 106. In the illustrated embodiment, thevalves 136, 138 are ball valves that are spring biased into the closedposition by respective springs 140, 142. However, as should beunderstood by those of ordinary skill in the pertinent art, the valves136, 138 may take the form of any one-way valve that allows fluid topass through in a substantially single direction, and only when pressureis applied to overcome the valve opening pressure, i.e., the spring biasof the springs.

The piston 140 is operatively connected between the trigger 108 and thefluid path 134. The piston 140 includes a plunger 141 slideable within abody 142, and defining a compression chamber 143 therebetween. Duringoperation, when the trigger 108 is pressed toward the handle 102, i.e.,from the first position toward the second position, movement of theplunger 141 within the body 142 toward the fluid path 134 and into thechamber 143, pressurizes the hydraulic fluid within the fluid path 134.The configuration of the trigger mechanism permits the user to exertsufficient force onto the piston 140 to pressurize the hydraulic fluidto a pressure exceeding the valve opening pressure of the downstreamvalve 138 during normal operation, thereby opening the valve 138 andforcing the hydraulic fluid within the fluid path 134 to flowtherethrough and into the cavity 126. When the trigger 108 is pressedtoward the second position, the pressure building within the fluid path134 also further biases the upstream valve 136 into the normally closedposition, helping prevent fluid from flowing back into the fluid source112. Upon release of the trigger 108, the trigger, along with the piston140, is biased back from the second position toward the first position,i.e., in a direction away from the handle 102, by the biasing mechanism109. This return stroke creates a vacuum in the fluid path 134 resultingin a pressure differential across the upstream valve 136 exceeding thevalve opening pressure thereof, thereby opening the valve 136 anddrawing hydraulic fluid from the fluid source 112, through the valve136, and into the fluid path 134. When the trigger 108 is returned backtoward the first position, the piston 140 is also withdrawn in thecompression chamber 143, and the vacuum created within the fluid path134 also further biases the downstream valve 138 into the normallyclosed position, preventing fluid from flowing out of the cavity 126.

As such, during operation of the hydraulic tube expander 100, thehydraulic fluid passes from the hydraulic fluid source 112, through thefluid path 134 and into the cavity 126 of the head 104. With each pumpor operation of the trigger 108, additional hydraulic fluid is forcedinto the cavity 126, thereby increasing the hydraulic pressure thereinapplied to the cone 118 and, in turn, moving the cone 118 to operate theexpanding jaws 106. In the illustrated embodiment, as the fluid fillsthe cavity 126, the piston 130 is moved axially within the cavity 126.As the piston 130 moves, it moves the cone 118, which is translated tothe expanding jaws 106, in order to expand a tube or pipe that thehydraulic expander is engaged with (not shown). As the piston 130 moves,the biasing mechanism 132, such as, for example, without limitation, aspring, is compressed. Although described and shown as a spring, thebiasing mechanism 132 may be any biasing mechanism known in the art orthat may become known in the art, without departing from the scope ofthe present invention. Now referring to FIG. 4, the hydraulic fluid thatenters the cavity 126 is held within the cavity 126 between the piston130 and the inlet valve 138 and an outlet valve 114, which are eachbiased toward a closed position by the respective biasing mechanisms142, 116. As explained above, with each pump or operation of the trigger108 more fluid may be conveyed into the cavity 126. As more hydraulicfluid enters the cavity 126, the piston 130 moves further axiallyagainst the bias of the mechanism 132, which becomes further compressed.Axial movement of the piston 130 toward the cones 118 moves the cone 118axially toward the expanding jaws 106, to, in turn, induce the expandingjaws 106 to hinge about the ends 135 of the head 104 and into thedesired open and expanded position.

After operation of the expanding jaws 106 to expand a section of tube orpipe, the hydraulic tube expander must be disengaged from the tube orpipe. To disengage the tube expander 100 from the pipe or tube, theexpanding jaws 106 must be returned to their closed position. To do so,the hydraulic pressure within the cavity 126 must be released so thatthe piston 130 and thereby the cone 118 can be retracted from the jaws106. To release the pressure, the hydraulic tube expander 100 isconfigured with a single-action release actuator 110 to allow for simpleand quick release of the hydraulic pressure within the cavity 126 of thehead 104.

In the illustrated embodiment, the tool body 103 also includes an outletfluid path 113 (FIG. 4), fluidly connectible with the fluid source 112and the cavity 126, configured to allow flow of hydraulic fluid only inthe direction from the cavity 126 back to the fluid source 112. Theone-way valve 114 is located between the outlet 145 of the cavity 126and the inlet of the fluid path 113 and is biased in a normally closedposition. Similarly to the valves 136 and 138, the valve 114 in theillustrated embodiment is a ball valve that is spring biased into theclosed position by a spring 116. However, as previously mentioned, oneof ordinary skill in the pertinent art should understand that the valve114 may take the form of any one-way valve that allows fluid to passthrough in a substantially single direction. The single-action releaseactuator 110 is operatively connected to the valve 114 so as to open it.Operation of the single-action release actuator 110 applies a force on,or operates, a piston 122. The piston 122 is operatively connected withthe valve 114 such that a force applied by the piston 122 overcomes theclosing force of the valve 114 and opens the valve 114, thereby allowingthe hydraulic fluid in the cavity 126 of the head 104 to return from thecavity 126, into the fluid path 113, and back to the hydraulic fluidsource 112.

Although the illustrated embodiment has separate fluid paths 113, 134,as should be understood by those of ordinary skill in the pertinent art,the tool body 103 may alternatively include a single fluid path fluidlyconnectible with the fluid source 112 and the cavity 126. Such a flowpath would convey hydraulic fluid from the fluid source 112 to thecavity 126 by operation of the trigger 108 and would convey hydraulicfluid from the cavity 126 to the fluid source 112 upon actuation of therelease actuator 100.

In the illustrated embodiment, the single-action release actuator 110 ispivotally mounted on the hydraulic tube expander 100, on a side thereofopposing the trigger 108, using a hinge 120 and biased into a firstposition. Operation of the single-action release actuator 110 moves thesingle-action release actuator 110 from the first position toward asecond position. The first position of the single-action releaseactuator 110 corresponds to a closed position of the valve 114 or aposition such that a force is not applied to the valve 114 by the piston122. The second position corresponds to an open position of the valve114 or a position such that a force is applied to the valve 114 by thepiston 122, allowing fluid to pass through the valve 114.

Upon operation of the single-action release actuator 110, the piston 122is moved axially toward the head 104 and opens the valve 114. When thevalve 114 opens, the hydraulic pressure within the cavity 126 drains thefluid therefrom, through the open valve 114, and into the fluid path 113and back to the fluid source 112. The biasing mechanism 132 will alsoassist in moving the piston 130 in a direction toward the valve 114.Accordingly, during operation of the single-action release actuator, theforce is relieved from the cone 118, and the cone 118 is withdrawnrearwardly, allowing the biasing mechanism 107 to return the jaws 106 tothe closed position thereby disengaging the jaws from the tube or pipe.

Advantageously, embodiments of the present invention provide a compacthydraulic tube expander. To be compact, the tool is formed in anapproximately 90.degree. orientation. Furthermore, a trigger isconfigured to be located at the junction of a head and tool body of thehydraulic tube expander such that the configuration forms a pistol-typeorientation, allowing for very compact and simple use. Moreover, thiscompact configuration allows for a user to use the tool with a singlehand, making operation simple and able to be used within tight spaces.

Further, advantageously, embodiments of the present invention provide asingle-action release actuator, located on the opposing side of the toolbody from the trigger, that allows for quick and simple release anddisengagement of the tool from an expanded tube or pipe. Thepositioning/location and functionality of the single-action releaseactuator also allows for single-hand use of the tool, without requiringmore complex operation to disengage the tool from a pipe or tube. Forexample, by gripping the tool with a single hand, a user may operate atrigger to expand a tube by using only the user's fingers, and then mayrelease the tool by pressing the single-action release actuator witheither the user's thumb or palm. This requires no adjustment of theuser's hand on the tool, or use of a second hand, to operate eitherexpansion of the expanding jaws or disengagement of the tool from a tubeor pipe.

As may be recognized by those of ordinary skill in the pertinent artbased on the teachings herein, numerous changes and modifications may bemade to the above-described embodiments of the present invention withoutdeparting from its scope as defined in the appended claims. For example,the expanding jaws may be operated by mechanisms other than a cone andpiston arrangement that are currently known or that later become known.Additionally, although the movement of the cone and other elements isdescribed as axial movement, those skilled in the art will appreciatethat other forms of movement and operation may be used without departingfrom the scope of the present invention. In addition, the tool body, thehead, and the handle may be a single uniform body, or may be configuredwith two or more elements, without departing from the scope of thepresent invention. Additionally, as shown in the figures, a threadedconnection is shown between the head and the handle to the tool body ofthe hydraulic tube expander. Those skilled in the art will appreciatethat other forms of connection may be used between the head, the handle,and the tool body. Moreover, although the single-action release actuatoris described herein as hinged, the actuator may be configured in otherarrangements without departing from the scope of the present invention.For example, the single-action release actuator may be spring biased orconfigured with other means of biasing or attaching, without departingfrom the scope of the present invention. Furthermore, although the valveis shown as a ball valve with a conical spring biasing the valve into aclosed position, other types of valves and configurations may be usedwithout departing from the scope of the present invention. Accordingly,this detailed description of embodiments is to be taken in anillustrative, as opposed to limiting sense.

What is claimed is:
 1. A device comprising: a tube expander having apistol-type orientation formed by a handle, a trigger, and a head,wherein the head includes a jaw and a cone, wherein the jaw isconfigured to move relative to the head as urged via the cone when thetrigger is pivoted relative to the handle.
 2. The device of claim 1,wherein the handle contains a source of a fluid that enables the cone tourge the jaw.
 3. The device of claim 3, wherein the tube expanderincludes a first valve and a second valve, wherein the first valve isfluidly between the source of the fluid and the second valve, whereinthe second valve causes the fluid to enable the cone to urge the jaw. 4.The device of claim 1, wherein the tube expander includes asingle-action release actuator configured to relieve a force on the conethat causes the cone to urge the jaw.
 5. The device of claim 4, whereinthe single-action release actuator opposes the trigger, wherein thesingle-action release actuator is pivotable relative to the handle. 6.The device of claim 1, wherein the tube expander includes a plunger thatmoves into the handle when the trigger is pivoted.
 7. The device ofclaim 1, wherein the tube expander includes a biasing mechanism that isconfigured to pivotably bias the trigger between a plurality ofpositions.
 8. A device comprising: a tube expander having a pistol-typeorientation formed by a handle, a trigger, and a head, wherein thehandle includes a source of a fluid, wherein the head includes a jawconfigured to move relative to the head based on the fluid flowingbetween the source and the head when the trigger is pivoted relative tothe handle.
 9. The device of claim 8, wherein the head includes a cone,wherein the jaw is configured to move relative to the head as urged viathe cone when the fluid is flowing between the source and the head. 10.The device of claim 8, wherein the tube expander includes a first valveand a second valve, wherein the first valve is fluidly between thesource of the fluid and the second valve, wherein the second valvecauses the fluid to enable the jaw to move relative to the head when thetrigger is pivoted.
 11. The device of claim 8, wherein the tube expanderincludes a single-action release actuator configured to relieve a forceimparted on the jaw that enables the jaw to move relative to the handlewhen the trigger is pivoted.
 12. The device of claim 11, wherein thesingle-action release actuator opposes the trigger, wherein thesingle-action release actuator is pivotable relative to the handle. 13.The device of claim 8, wherein the tube expander includes a plunger thatmoves into the handle when the trigger is pivoted.
 14. The device ofclaim 8, wherein the tube expander includes a biasing mechanism that isconfigured to pivotably bias the trigger between a plurality ofpositions.
 15. A device comprising: a tube expander having a pistol-typeorientation formed by a handle, a trigger, a biasing mechanism, a sourceof a fluid, and a head, wherein the head includes a jaw, wherein thetrigger is configured to pivot between a first position and a secondposition, wherein the trigger is configured to pump the fluid from thesource toward the jaw based on the trigger pivoting from the firstposition to the second position and thereby enabling the jaw to moverelative to the head, wherein the biasing mechanism is configured tobias the trigger from the second position to the first position.
 16. Thedevice of claim 15, wherein the head includes a cone, wherein the jaw isconfigured to move relative to the head as urged via the cone when thefluid is flowing between the source and the head.
 17. The device ofclaim 15, wherein the tube expander includes a single-action releaseactuator configured to relieve a force imparted on the jaw that enablesthe jaw to move relative to the handle when the trigger is from thefirst position to the second position.
 18. The device of claim 17,wherein the single-action release actuator opposes the trigger, whereinthe single-action release actuator is pivotable relative to the handle.19. The device of claim 15, wherein the tube expander includes a plungerthat moves into the handle when the trigger is pivoted from the firstposition to the second position.
 20. The device of claim 15, wherein thetube expander includes a first valve and a second valve, wherein thefirst valve is fluidly between the source of the fluid and the secondvalve, wherein the second valve causes the fluid to enable the jaw tomove relative to the head when the trigger is pivoted from the firstposition to the second position.